Metal dust inhalation induces an interstitial lung disease which may progress to pulmonary fibrosis (hard metal disease, HMD). Cobalt is believed to be the pathogenic agent of HMD. A strong genetic association of HMD with some HLA-DP alleles has been reported although the role of these molecules in the occurrence of the fibrotic disorder remains unclear. A possible explanation of these findings is that HLA-DP but not other HLA class II molecules can bind cobalt. This could have as a consequence an HLA-DP-mediated specific activation of the immune system. To test this hypothesis, we have set up an in vitro binding assay using 57Co and purified HLA-DP and -DR molecules. The results indicate that HLA-DP but not HLA-DR molecules bind cobalt. Moreover, the presence of HLA-DP Glu beta69, which is associated with susceptibility to HMD, determines a higher metal uptake. Molecular modelling of HLA-DP2 molecules places the Glu beta69 residue in a position relevant in determining peptide specificity. The possibility that binding of cobalt by HLA-DP molecules can interfere with their antigen presenting functions is discussed.
HLA-DP molecules bind cobalt: a possible explanation for the genetic association with hard metal disease / Potolicchio, Ilaria; Festucci, Alfredo; Hausler, Peter; Sorrentino, Rosa. - In: EUROPEAN JOURNAL OF IMMUNOLOGY. - ISSN 0014-2980. - 29:7(1999), pp. 2140-2147. [10.1002/(SICI)1521-4141(199907)29:07<2140::AID-IMMU2140>3.0.CO;2-Q]
HLA-DP molecules bind cobalt: a possible explanation for the genetic association with hard metal disease
SORRENTINO, Rosa
1999
Abstract
Metal dust inhalation induces an interstitial lung disease which may progress to pulmonary fibrosis (hard metal disease, HMD). Cobalt is believed to be the pathogenic agent of HMD. A strong genetic association of HMD with some HLA-DP alleles has been reported although the role of these molecules in the occurrence of the fibrotic disorder remains unclear. A possible explanation of these findings is that HLA-DP but not other HLA class II molecules can bind cobalt. This could have as a consequence an HLA-DP-mediated specific activation of the immune system. To test this hypothesis, we have set up an in vitro binding assay using 57Co and purified HLA-DP and -DR molecules. The results indicate that HLA-DP but not HLA-DR molecules bind cobalt. Moreover, the presence of HLA-DP Glu beta69, which is associated with susceptibility to HMD, determines a higher metal uptake. Molecular modelling of HLA-DP2 molecules places the Glu beta69 residue in a position relevant in determining peptide specificity. The possibility that binding of cobalt by HLA-DP molecules can interfere with their antigen presenting functions is discussed.| File | Dimensione | Formato | |
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